我交换了分子和分母,因为这里有个负号。
And I've reversed the fraction here because of the negative sign here.
从分数的分子和分母中去掉相同的因数,我们称为约分。
We call it reduction to remove the same factors from the terms of a fraction.
另外,借助于间接估计指标分子和分母置信区间的办法,克服了估计指标置信区间的困难。
In addition, the difficulty of estimating the index credible interval was overcome by an indirect method which estimated the credible intervals for the numerator and denominator of the index.
另外,借助于间接估计指标分子和分母置信区间的办法,克服了估计指标置信区间的困难。
In addition, the difficulty of estimating the index credible interval was overcome by an indirect method wh...
这种变化意味着现在处理器繁忙时间所占百分比的分子和分母都是随机的,因此这个值在生产虚拟环境中没有用处。
This variation means that the processor busy rate now has a random denominator and a random numerator, which renders this value fairly useless in a production virtual world.
在此练习中您要将一个给定的数字转换成一个分数,输入转化结果的分子和分母。不要忘了将结果约分至最简分数。
In this exercise you have to convert a given number into a fraction by entering a numerator and denominator. Do not forget to reduce the result.
在此练习中您要将一个给定的数字转换成一个分数,输入转化结果的分子和分母。不要忘了将结果约分至最简分数!
In this exercise you have to convert a given number into a fraction by entering numerator and denominator. Do not forget to reduce the result!
如果你真的想看到“0 333333333333333333333333333333”输出,您可以创建一个自定义的“分数”类的分子和分母分别存储。
If you REALLY want to see "0.333333333333333333333333333333" output, you could create a custom "Fraction" class which stores the numerator and denominator separately.
频域计算的传统方法是先求出传递函数的分子多项式和分母多项式。
The traditional method for amplitude-phase frequency characteristic calculation is first to solve the numerator polynomials and denominator polynomials of a transfer function.
频域计算的传统方法是先求出传递函数的分子多项式和分母多项式。
The traditional method for amplitude-phase frequency characteristic calculation is first to solve the numerator polynomials and denominator polynomials of a transfer function.
应用推荐